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Release after 01-Jan-2017

Abstract

Synucleinopathies are a family of neurodegenerative diseases, with the distinctive pathological feature of Lewy bodies, which include Parkinson’s disease. Lewy bodies are intracellular inclusions filled with α-synuclein, a small neuronal protein with prion-like properties. The main function of α-synuclein is not fully understood, however, it plays a major role in disease progression. Dopamine interactions with α-synuclein have also been implicated in the progression of Parkinson’s disease. Dopamine crosslinks α-synuclein and causes generation of toxic oligomeric species of the protein. Little is known about dopamine-α-synuclein adducts, and one section of the current dissertation focuses on dopamine, levodopa, and α-synuclein interactions. Studies detailed herein demonstrated that lysine residues on α-synuclein have an essential role in the dopamine-induced oligomer formation. Evidence is also presented showing that removal of one of the reactive sites on dopamine by N-acetylcysteine and/or glutathione inhibits dopamine-induced oligomer formation, although the dopamine thiol-conjugates still bind to α-synuclein. In contrast, thiol-conjugates of the dopamine precursor levodopa, significantly increase α-synuclein oligomer formation. The data demonstrate the importance of the scavenging of dopamine and levodopa quinones by N-acetylcysteine and glutathione, and the subsequent changes in the interaction with α-synuclein and its oligomeric states. Environmental factors are key players in the development of synucleinopathies. Although arsenic pesticide exposure has been linked to elevated risk of Parkinson’s disease, there is a paucity of information on arsenic-induced pathological changes, which may be attributed to the onset of neurodegenerative processes. SH-SY5Y cells exposed to environmentally relevant levels of arsenic for 72 hours, develop α-synuclein oligomers and exhibitaugmented expression of stress markers. Thus, there is an increase in autophagy markers and other stress markers, including the accumulation and co-localization of LC3, major autophagy marker, and α-synuclein. Animals transiently exposed to arsenic through drinking water for 2 or 5 weeks, exhibited pathological features resembling synucleinopathies. Although animals were exposed at two-months of age and remained exposure free up to geriatric age (18 months), they still exhibited accumulation of α-synuclein and elevations in autophagy markers. The results demonstrated how even a short period of exposure to a toxicant can have detrimental neurological effects, which may contribute to the development of neurodegenerative disease years after exposure.

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